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Medientyp:
E-Artikel
Titel:
An applicatoin of an optimal traffic control during lane closure periods of a two‐lane road
Beteiligte:
Ceder, Avishai
Erschienen:
Wiley, 2000
Erschienen in:
Journal of Advanced Transportation, 34 (2000) 2, Seite 173-190
Sprache:
Englisch
DOI:
10.1002/atr.5670340202
ISSN:
0197-6729;
2042-3195
Entstehung:
Anmerkungen:
Beschreibung:
AbstractOn two‐lane roadways, when provision should be made for alternative one‐way movement (for construction or maintenance), the traffic characteristics differ from normal operation in which no lane is closed. The purpose of this study is to derive optimal strategies for controlling, by means of traffic signals, the one lane operation (in two‐way roadways). In this study, strategies to determine the optimal length of the closed one‐lane section during construction and maintenance work are established. This length minimizes the objective function representing the tradeoff between delay cost and operational cost. Using the length value obtained by the proposed model, plus a timing methodology, the overall cost of operating the closed highway section can be minimized. The sensitivity analysis of the optimal solution for the section length is examined with respect to the input variables. This analysis shows that for very low traffic flow values (less than 100 vph per direction), the solution is very sensitive to fuel price changes, while for greater flow values, the solution is insensitive to this change. Similar results are obtained for changes in the worker's wage which is part of both the operational and the delay cost. That is, the section's length is sensitive to wage changes at low traffic flow and insensitive otherwise. Based on the results presented in this study, it is possible to establish a guideline for the section's length determination. The control measure can emerge from a pair of traffic signals that can be installed at both ends of the closed highway segment. This traffic control system is also described in the study in terms of its components and operational features and advantages.